Display apparatus for displaying text or images and outputting sounds based on text code information

ABSTRACT

In a display apparatus, a text code input section outputs externally-supplied text code information to a font conversion section and a voice synthesizer section. The font conversion section converts the input text code into a corresponding font, and transmits the font to a display drive section via a video signal input section, and the display drive section causes a display section to display the font. Meanwhile, the voice synthesizer section converts the input text code into corresponding voice data, and transmits the voice data to a voice device where the voice data is outputted. With this structure, superior convenience is ensured for a display apparatus which serves only as an individual displaying apparatus and relies on an external device (server) for the major functions of the system.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a display apparatus for displaying textor images based on text code information constituted of text codes orvideo signals, particularly to a client display apparatus operatingunder an external host apparatus.

2. Description of the Related Art

A display apparatus is normally used for displaying text based on textcode information or for displaying an image based on a video signal. Aconventional display apparatus generally also includes functions ofmajor image processing by which the various processings required fordisplaying text or images according to text code information/videosignal are performed.

Further, display apparatuses are often mounted to other kind ofapparatuses. For example, Document 1 (Japanese Unexamined PatentPublication Jitsukaisho 62-201850/1987 (published on Dec. 23, 1987))discloses a document processing device which displays text informationsupplied from a keyboard in a display section, and also outputs the textinformation as voice message by converting the text information intosound information. Further, Document 2 (Japanese Unexamined PatentPublication Tokukaihei 02-165324/1990 (published on Jun. 26, 1990))discloses a document reader device which interprets document data anddisplays the data in a display section as an image and also outputs thesame data as voice information. Further, Document 3 (Japanese UnexaminedPatent Publication Tokukaihei 04-24885/1992 (published on Jan. 28,1992)) discloses a reading processor device which takes out a textportion from an image and converts the text portion into a text code,which code is then converted into voice information by a voicesynthesizer section, so as to output the text information as voiceinformation.

The apparatuses disclosed in Documents 1 through 3 are all capable ofoutputting voice with their built-in image processing functions whichcarry out a process for converting text information into voiceinformation.

Meanwhile, a small, light-weighted and thin display apparatus has beenavailable in the market recently, which often serves as a mobileapparatus with a function of capturing an image from an externalapparatus. Further, there is a demand for downsizing such a mobileapparatus into a card-size apparatus almost as small as a general creditcard, name card etc. Prior to the present invention, the applicant ofthe present invention suggested in Document 4 (Japanese UnexaminedPatent Publication Tokukai 2003-244784 (published on Aug. 29, 2003)) acard-sized display apparatus with voice output function. The apparatusproduces sound by vibration of substrate constituting the displayelement, based on a voice signal supplied from an external apparatus.The display apparatus thus realizes a speaker function withoutincreasing the apparatus size.

With the recent development of network infrastructure or variousservices, a recent demand for a display apparatus is not only mobilitybut also a wider range of application and a wider communication area,which can be achieved by relying on an external host device (server) forthe most functions of the system. In this case the display apparatus iscalled a client or a thin client, and simply serves as a displayingdevice. With this arrangement, the display apparatus does notnecessarily have to have a built-in function for general imageprocessing.

The described invention of the same applicant for realizing a card-sizeddisplay apparatus with voice output function was made in view of thisobjective. Such a structure contributes to create a display apparatuswith great mobility.

Then, the next object to be achieved is provision of various functionsto such a display apparatus serving as a client device. The presentinvention is made in view of this object.

SUMMARY OF THE INVENTION

The applicant of the present invention had an intensive study on thevarious functions for a display apparatus serving as a client device,and invented a structure in which the display apparatus is provided witha function of recognizing text (characters) and a function of outputtingthe text information as voice information. This structure allows to theuser to aurally confirm text messages, which were conventionally onlyvisually confirmed. This offers a great convenience, which, for example,enables vision-impaired users to use the display apparatus.

A first display apparatus according to the present invention comprises:a display section; a voice output section; a text code input section forreceiving an input text code externally supplied; a display controlsection for displaying text corresponding to the text code in thedisplay section; and a voice output control section for outputting voicecorresponding to the text code through the voice output section, thevoice input section outputs the text code to the display control sectionand the voice output control section so as to display the textcorresponding to the text code in the display section, and output thevoice corresponding to the text code through the voice output section.

With this invention, the text code input section outputs the input textcode to the display control section and the voice output control sectionso that the display control section causes the display section todisplay text corresponding to the input text code and the voice outputcontrol section causes the voice output section to output voicecorresponding to the input text code, that is, voice reading thedisplayed text.

With this function, the user sees the display of the text message andalso hears speaking voice corresponding to the text message even whenonly the text code is transmitted from an external apparatus.Consequently, the text information is displayed in the display section,and also is outputted as voice from the voice output section. Thisallows the user to both visually and aurally confirmed the text.Conventionally, vision-impaired users have not been able to confirminformation transmitted from external apparatuses unless the externalapparatus outputs a voice signal together with the text codeinformation. On the other hand, the foregoing function allows such usersto aurally confirm the content of text code information supplied from anexternal device even when the external device supplies only text codeinformation. On this account, a wider range of information can beobtained from various external apparatuses.

Such a highly-convenient display apparatus is realized entirely in thedisplay apparatus; that is, no modification is necessary for theexternal apparatus which outputs the text code information. Therefore,the foregoing effect is ensured for any conventional external apparatushaving a function of outputting text codes. The present invention isthus highly versatile.

With this function, the user can aurally confirm the text messageaccording to the externally supplied text code, in addition to theconventional visual confirmation of the text. Besides, this function isrealized with no modification of the external device from which the textinformation is supplied. This allows the user to both visually andaurally confirmed the text. With this advantage, the display apparatusis highly versatile and convenient.

A second display apparatus according to the present invention comprises:a display section; a voice output section; a video signal input sectionfor receiving an input video signal externally supplied; a displaycontrol section for displaying an image based on the input video signalin the display section; a text recognizing section for extracting a textportion from the input video signal and converting the text portion intoa text code; and a voice output control section for outputting voicecorresponding to the text code through the voice output section, thevideo signal input section outputs the input video signal to the displaycontrol section and the text recognizing section, and the textrecognizing section outputs the text code to the voice output controlsection, so that an image corresponding to the input video signal isdisplayed in the display section, and voice corresponding to the textcode, which is included in the input video signal and is recognized bythe text recognizing section, is outputted from the voice outputsection.

With this invention, the video signal input section outputs theexternally supplied video signal to the display control section and thetext recognizing section. The text recognizing section extracts the textportion contained in the video signal and converts the text portion intoa text code. Consequently, the display control section causes thedisplay section to display an image corresponding to the video signaland the voice output control section causes the voice output section tooutput voice corresponding to the text code, that is, voice reading thetext contained in the displayed image.

With this function, the user sees the display of the image of the videosignal and also hears speaking voice corresponding to the text portioncontained in the video signal even when only the video signal istransmitted from an external apparatus. This allows the user to bothvisually and aurally confirmed the externally supplied data.Conventionally, vision-impaired users have not been able to confirm textinformation contained in a video signal transmitted from externalapparatuses unless the external apparatus outputs a voice signaltogether with the text code information. On the other hand, theforegoing function allows, even when the external device supplies only avideo signal, such users to aurally confirm the content of textinformation contained in the video signal. On this account, a widerrange of information can be obtained from various external apparatuses.

Such a highly-convenient display apparatus is realized entirely in thedisplay apparatus; that is, no modification is necessary for theexternal apparatus which outputs the video signals. Therefore, theforegoing effect is ensured for any conventional external apparatushaving a function of outputting video signals. The present invention isthus highly versatile.

With this function, in addition to the conventional visual confirmationof the image, the user can aurally confirm a text message contained inan externally-supplied video signal, that is, a text portion among theimage expressed by the video signal. Besides, this function is realizedwith no modification of the external device from which the video signalis supplied. This allows the user to both visually and aurally confirmedthe information. With this advantage, the display apparatus is highlyversatile and convenient.

Additional objects, features, and strengths of the present inventionwill be made clear by the description below. Further, the advantages ofthe present invention will be evident from the following explanation inreference to the drawings.

Other features, elements, steps, characteristics and advantages of thepresent invention will become more apparent from the following detaileddescription of preferred embodiments of the present invention withreference to the attached drawings.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a functional block diagram of a display apparatus according toFirst Embodiment of the present invention.

FIG. 2 is a perspective view showing a structure of the displayapparatus of FIG. 1.

FIG. 3 is an exterior view of the display apparatus of FIG. 1.

FIG. 4 is a drawing showing the whole system including the displayapparatus of FIG. 1 and an external apparatus.

FIG. 5 is a perspective view showing a structure of a display apparatusaccording to modification example of First Embodiment of the presentinvention.

FIG. 6 is a functional block diagram of the display apparatus of FIG. 5.

FIG. 7 is a functional block diagram according to Second Embodiment ofthe present invention.

FIG. 8 is a functional block diagram according to Third Embodiment ofthe present invention.

FIG. 9 is a drawing showing the whole system including the displayapparatus of FIG. 8 and an external apparatus.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

A first display apparatus according to the present invention is capableof displaying text based on text code information extracted from anexternal apparatus, and also outputting voice corresponding to the textcode information. To realize this function, a text code input section ofthe display apparatus and a text code output section of the externalapparatus where the text code information comes from are connected via awired or wireless line.

A second display apparatus according to the present invention is capableof displaying an image based on a video signal extracted from anexternal apparatus, and, if the video signal contains text information,also outputting voice corresponding to the text information. To realizethis function, a video signal input section of the display apparatus anda video signal output section of the external apparatus where the videosignal comes from are connected via a wired or wireless line.

With reference to some figures, these first and second displayapparatuses according to the present invention are specificallyexplained below.

First Embodiment

The following explains one embodiment of the present invention withreference to FIGS. 1 through 6.

First, with reference to FIGS. 2 and 3, the following explains thecomponential members of a display apparatus 30, which is the firstembodiment of the present invention. FIG. 2 is a view showing thecomponential member of a display apparatus 30 according to the firstembodiment of the present invention. FIG. 3 is an exterior view of thedisplay apparatus 30.

As shown in FIG. 2, the display apparatus 30 includes a liquid crystalpanel 1 and a voice device (voice output section, sound source element)2. The liquid crystal panel 1 is made of a substrate on which thevarious sections (described in detail later) such as a display sectiondrive section are monolithically formed. As such, the liquid crystalpanel 1 is made as a display element including a built-in drive section.

The liquid crystal panel 1 displays in a display section 1 a textinformation based on text code information supplied from an externalapparatus connected to the display apparatus 30. The display apparatus30 also displays in the display section 1 a an image based on a videosignal supplied from an external apparatus connected to the displayapparatus 30. However, image display is not an indispensable function.

Further, the external apparatus from which the video signal istransmitted and the external apparatus from which the text codeinformation is transmitted may be separate. There is no limitation inthe present invention for connection state between the display apparatus30 and the external apparatus, and combination of signals. Theseconditions are variable depending on the data format specified by thecommunication mode and/or the standards applied in the display apparatus30, or the type of connection terminals. The present invention does notlimit the modes or standards of communication or the type of terminals.

The liquid crystal panel 1 has a pair of transparent glass substrates 10and 11, and liquid crystal held between the two substrates. Thesubstrate 10, serving as a base substrate, has a thin film layer on aside opposite to another substrate 11. The thin film layer includes apolysilicon thin film. The substrate 10 has some thin film elementsformed from the thin film layer, such as a pixel drive TFT (Thin FilmTransistor) which is provided in the display section 1 a. The displaysection drive section is also formed on the substrate 10. The substrate10 is hereinafter referred to as a thin film substrate 10. On the otherhand, the substrate 11 has a common electrode formed from a transparentconductive film such as an ITO on a side opposite to the substrate 10.The substrate 11 is hereinafter referred to as a counter substrate.

The voice device 2 may be constituted of a piezoelectric element made ofa Rochelle salt crystal, a ceramic thin plate or the like, or a generalvoice coil speaker. The voice device 2 generates sound by vibrating theliquid crystal panel 1.

As shown in FIG. 3, the liquid crystal panel 1 and the voice device 2are contained in a bezel 3 which covers the entire rear surface of theliquid crystal panel 1, and has an opening corresponding to the locationof the display section 1 a where various display operations are carriedout.

The voice device 2 is located to be a part of the periphery section 1 bsurrounding the display section 1 a of the liquid crystal panel 1. Theperiphery section 1 b corresponds to the frame section of the displayapparatus 30. Since the voice device 2 is provided on the periphery, itis not necessary to enlarge the frame section. As long as it ispositioned on the periphery, the voice device 2 may be fixed onto theliquid crystal panel 1, or may be fixed onto the bezel 3. The voicedevice 2 is provided either on the front surface or the rear surface ofthe periphery section 1 b. Further, in the case of using a reflectiveliquid crystal panel, the voice device 2 may be provided on the rearsurface of the liquid crystal panel 1, which is the back side of thedisplay apparatus 30.

FIG. 1 is a functional block diagram of the display apparatus 30. Thedisplay apparatus 30 includes, in terms of function, a display section 1a, display section drive sections (display section drive circuits) 12and 13, a video signal input section 14, a text code input section 16, afont conversion section 17, a font memory 18, a voice synthesizersection 19, a voice data memory 20, a voice device drive section 21, aconnection terminal section 15 and a voice device 2.

The connection terminal 15 serves as a terminal to establish connectionwith an external apparatus. The video signal input section 14 receivesinput video signal from various external apparatuses. The video signalinput section 14 receives the video signals and also the controlsignals.

The display section drive section (scanning line drive circuit) 12serves to drive the plurality of scanning lines GL in the displaysection 1 a. The display section drive section 12 is supplied withvarious control signals for driving the scanning lines, such as a gateclock, gate start pulse etc., via the video signal input section 14.

The display section drive section (signal line drive circuit) 13 drivesa plurality of signal lines SL in the display section 1 a. The displaysection drive section 13 is supplied video signals and various controlsignals for driving the signal lines, such as a source clock, sourcestart pulse etc., via the video signal input section 14.

The video signal input section 14 is further supplied with font datafrom the font conversion section 17 (described later). Receiving thefont data, the video signal input section 14 combines the font data witha video signal, and transmits the resulting data to the display sectiondrive section 13.

The display section drive sections (display section drive circuits) 12and 13 serve to process the video signals and the control signalssupplied from the video signal input section 14 to drive the displaysection 1 a. This allows the display section 1 a to display text andimages. When the display section drive sections (display section drivecircuits) 12 and 13 supply a video signal and font data, the videosignal input section 14 displays a main image based on the video signal,and superimposes the font data on the main image.

The text code input section 16 receives an input text code (e.g. ASCII:American Standard Code for Information Interchange) from variousexternal apparatuses. The text code input section 16 then transmits thetext code to the font conversion section 17 and the voice synthesizersection 19. The font conversion section 17 searches for font datacorresponding to the text data in the font memory, and transmits thefont data to the video signal input section 14, so as to make thedisplay section 1 a to display the font corresponding to the input textcode supplied from the text code input section 16.

The voice synthesizer section 19 searches for voice data correspondingto the input text data in the voice data memory, and transmits the voicedata to the voice device drive section (sound source element drivesection) 21, so as to make the voice device 2 to output the voicecorresponding to the input text code supplied from the text code inputsection 16. The voice data memory 20 may be omitted if the voicesynthesizer section 19 consists of a regulation synthesis using voicegenerating modeling. The voice device drive section 21 processes thevoice data supplied from the voice device drive section 21 so as todrive the voice device 2.

In this embodiment, the display section drive sections (display sectiondrive circuits) 12 and 13, the font conversion section 17, the fontmemory 18, and the video signal input section 14 constitute a displaycontrol section. The voice synthesizer section 19 and the voice datamemory 20 constitute a voice output control section.

FIG. 4 is a drawing showing the whole system including the displayapparatus 30 and an external apparatus. In the figure, the referencenumber 31 denotes an external apparatus which at least includes a textcode output section. Typical examples of the external apparatus 31includes keyboard, perforated media (tape, card) reading device,magnetic media reading device, optical media reading device (incl. diskmedia, multi-purpose scanner), Optical Character Reader (OCR), broadcastreceiver, communication device (incl. business purpose radio device,stationary telephone, mobile phone), document editor, e-book informationdisplaying device (incl. device dedicatedly used for dictionary search),and set-top box for internet broadcast communication. The externalapparatus may be provided with an exclusive display apparatus which atleast includes a text code output device having a text code outputsection.

The connection between the display apparatus 30 and the externalapparatus 31 is established by conducting their connection terminals. Ifboth of them are equipped with wireless communication functions whichallow them to constitute a wireless system, they are connected in awireless manner.

The following explains operation of the display apparatus 30 having sucha structure. For example, a connection terminal of the display apparatus30 is assumed to be connected to the external apparatus 31 having a textcode output section. Text code information is supplied to the text codeinput section 16 from the text code output device, and the text codeinput section 16 carries out some processing of the data such as datashaping, and transmits the resulting data to the font conversion section17 and the voice synthesizer section 19.

The font conversion section 17 converts the input text code into thefont data, and transmits the font data to the video signal input section14. The video signal input section 14 transmits the data to the displaysection drive sections 12 and 13. The display section drive sections 12and 13 display text corresponding to the text code in the displaysection 1 a. In the case where the display apparatus 30 is connected toa video signal output apparatus serving as the external apparatus 31 viathe connection terminal section 15, and the video signal input section14 is supplied with image signals, the video signal input section 14combines the image of text with the image of the video signal, so thatthe text is superimposed on the image when it comes out in the screen.

Meanwhile, the voice synthesizer section 19 converts the input text codeto corresponding voice data, and transmits the voice data to the voicedevice drive section 21. The voice device drive section 21 operates thevoice device 2 so that the voice device 2 outputs voice corresponding tothe input voice data.

For example, a text code “Good morning” is assumed to be outputted fromthe external apparatus as a result of the foregoing operation. The textcode is then supplied to the text code input section 16. Consequently,the text “Good morning” is displayed in the display section 1 a, and thevoice device 2 outputs voice saying “Good morning” as if the displayedtext is read out loud.

As described, the display apparatus 30 according to the presentembodiment causes the display section 1 a to display text correspondingto the text code supplied form the external apparatus 31, and alsocreates artificial voice based on the text code so that the displayedtext is also outputted as voice. This function is performed entirely inthe display apparatus 30; that is, no modification is necessary for theexternal apparatus.

With this function, the user sees the display of the text informationand also hears speaking voice corresponding to the text message evenwhen the external apparatus 31 supplies only text code information. Thisallows the user to both visually and aurally confirmed the text. Withthis advantage, the display apparatus 30 is highly convenient.

Conventionally, vision-impaired users have not been able to confirminformation transmitted from the external apparatus 31 unless theexternal apparatus 31 outputs a voice signal together with the text codeinformation. On the other hand, the foregoing function allows such usersto aurally confirm the content of the output text code information, andtherefore a wider range of information can be obtained from variousexternal apparatuses. This function ensures high convenience of thedisplay apparatus 30.

Further, such a convenience as a display apparatus can be attained withno modification of the external apparatus 31. The foregoing function istherefore ensured for any conventional external apparatus having afunction of outputting text codes. The present invention is thus highlyversatile.

In terms of this usage, the display apparatus 30 is preferably a mobiledisplay apparatus, which is thin, light-weighted, and small-sized. Onthis account, the users can carry the display apparatus 30 with them,and can obtain data from external apparatus 31 by connecting the displayapparatus to the text code output section of the external apparatus 31.

Further, the voice device drive section 21 is constituted of asemiconductor device or the like, and therefore cannot be fabricatedwith the components of the voice device 2 such as a piezoelectricelement. Thus the voice device drive section 21 has to be formed on aseparate substrate. However, if the voice device drive section 21 formedon a separate substrate is mounted to the voice device 2, the voicedevice is required to be enlarged, which brings about a difficulty inmounting the voice device 2 to the periphery section 1 b of the displayapparatus 30 while keeping the periphery section 1 b in the same size.Besides, it also causes an increase in size of the display apparatus 30,decreasing versatility, mobility and convenience of the apparatus.

Since the effect of the present invention becomes particularly usefulunder condition where a conventional versatile information processingdevice provided with major image processing function cannot be operated,the voice device drive section 21 of the display apparatus 30 is formedon the thin substrate 10 in the liquid crystal panel 1. With such alayout, the voice device 2 can be formed small in thickness, size, andwidth, and is securely fitted in the frame section of the displayapparatus 30. Further, since a separate substrate is not required, thecost is reduced, and also some defects such as removal of the junctionsof plural separate circuit components, such as ICs, can be prevented.

Moreover, though this was not mentioned in the foregoing description,the all members of the display apparatus, which are shown in thefunctional block diagram of FIG. 1 except for the voice device 2;namely, the display section 1 a (to be more specific, a pixel driveelement, pixel electrode etc. of the display section 1 (circuit elementsof the display section)), display section drive sections (displaysection drive circuits) 12 and 13, the video signal input section 14,the text code input section 16, the font conversion section 17, the fontmemory 18, the voice synthesizer section 19, the voice data memory 20,the voice device drive section 21, and the connection terminal section15 are all formed on the thin film substrate 10 constituting the liquidcrystal panel 1, together with the voice device drive section 21.

By thus forming the display section drive sections (display sectiondrive circuits) 12 and 13, the voice synthesizer section 19 and thevoice device drive section 21 each made of a thin film element, the fontconversion section 17, and the font memories 18 and 20 on the thin filmsubstrate 10 of the display section 1 a of the liquid crystal panel onwhich the pixel drive circuit element is formed, the display apparatus30 becomes capable of simultaneously displaying an image and outputtingvoice based on the text code without increasing the size.

Further, though it is not provided in the display apparatus 30, a voicesignal input section may be provided to receive a voice signal comingfrom external apparatuses connected to the display apparatus 30 via theconnection terminal section 15. In this case, the voice device 2 isvibrated by the voice device drive section 21 based on the voice signalsupplied from the voice signal input section. With this structure, thevoice device 2 becomes capable of outputting voice based on a voicesignal supplied from an external apparatus, which allows the user toenjoy the sound accompanied by a video signal. The voice signal inputsection is also provided on the thin film substrate 10

The following explains a modification example of the display apparatus30 with reference to FIGS. 5 and 6. FIG. 5 is a view showing a structureof a display apparatus 40 as a modification example. The displayapparatus 40 additionally includes a touch panel. FIG. 6 is a functionalblock diagram of the display apparatus 40.

As shown in FIG. 5, the display apparatus 40 includes a touch panel 25which causes a change in potential or in current in response to anaction for pointing a specific portion by the user, and outputs a signalexpressing the change. The touch panel 25 is layered on the frontsurface of the liquid crystal panel 1 within the plane region of theliquid crystal panel 1.

As it is obvious in comparison between the functional block diagram ofFIG. 6 and the functional block diagram of FIG. 1, the modificationexample, that is, the display apparatus 40 also includes a signalprocessing section 23, a signal output section 24 and a text recognizingsection 22, which are associated with the touch panel 25.

The signal processing section 23 serves to convert a signal suppliedfrom the touch panel 25 into location information. The signal outputsection 24 transmits the location information coming from the signalprocessing section 23 to external apparatuses, and also transmits thelocation information to the text recognizing section 22.

When the user inputs hand-writing text information through the touchpanel 25, the text information is transmitted to the text recognizingsection 22 via the signal processing section 23 and the signal outputsection 24. The text recognizing section 22 recognizes the hand-writingtext information using a method like pattern matching, and furtherconverts the text into a text code. The text recognizing section 22transmits the text code to the voice synthesizer section 19.

As described above, the voice synthesizer section 19 converts the textcode into corresponding voice data, and transmits the resulting voicedata to the voice device drive section 21 so that the voice device 2 isbrought into operation. Consequently, the voice device 2 outputs voiceof the text information as if the text displayed in the display sectionis read out loud.

More specifically, for example, if the user inputs hand-writing textinformation “Good morning” through the touch panel 25. The text code isthen supplied to the text code input section 16. Consequently, the text“Good morning” is displayed in the display section 1 a, and the voicedevice 2 outputs voice saying “Good morning” as if the displayed text isread out loud.

Further, the text code created in the text recognizing section 22 mayalso be supplied to the text code input section 16 so that the text codeis also displayed in the display section 1 a as the voice device 2outputs the voice of the message. A most appropriate structure may beselected according to the assumed operation environment, and thestandards used.

As explained, the foregoing modification example, that is, the displayapparatus 40 is capable of outputting the voice corresponding to thehand-writing text inputted by the user through the touch panel 25. Withthis function, the users can aurally confirm whether their hand-writingtexts are properly recognized by the apparatus. This offers all users abenefit of aural confirmation of their hand-writing inputs, not tomention the vision-impaired users. This modification thus furtherincreases the convenience.

Note that, though the present embodiment is represented by the liquidcrystal panel 1 using liquid crystal as a display element constitutingthe display section, the present invention is not limited to thisstructure. For example, the liquid crystal may instead be other displayelement driven by a thin film element formed from a thin film substrate.Examples of the display element includes an EL (Electro Luminescence)element; an element carrying out display by changing condition ofreflection/diffusion of the incident light, which is usually performedby controlling the pixel section driven by a piezoelectric element or amicro machine; and an element using FED (Field Emission Display) mode.

Further, in the foregoing embodiment, the thin film substrate 10, whichis contained in the display element, is a substrate having a thin filmlayer containing a polysilicon thin film, but the substrate 10 mayinstead be a glass substrate with a thin film layer containing acontinuous grain boundary crystal silicon (CG silicon) thin film.Document 1 (Nikkei electronics (Feb. 17, 2003) p. 123-130) discloses atechnique of forming a 8-bit micro processor on a glass substrate, andthis document describes formation of a thin film layer containing CGsilicon on a glass substrate by a continuous grain boundary crystalsilicon technology. Compared to a general low temperature polysilison,CG silicon is constituted of larger grains, and their boundaries aredigestedly aligned. Further, the high electron movement (200-300cm^(Z)/Vs) allows high-speed driving of the logic circuit. With thistechnique, a microprocessor can be formed on a substrate holding liquidcrystal.

Further, the thin film substrate 10 may be constituted by combining aglass substrate having a thin film layer containing a polysilicon thinfilm with an active element for an integrated circuit made ofmonocrystal silicon. The bonding method for monocrystal silicon can befound in Document 5 (Japanese Laid-Open patent Publication Tokukaihei11-17107 (published on Jan. 22, 1999).

Further, bonding of the thin film substrate 10 with an active elementformed on a separate substrate is preferably performed by a hydrogen ionpeeling method in which the substrate with the active element isprovided with a hydrogen ion injecting section and is heated afterbonded to the thin film substrate 10.

The thin film substrate 10 and the active element formed on the separatesubstrate may be bonded with an adhesive, but the bonding process isquite troublesome. Further, the adhesive is not always highly-heatresistant, and the process after the bonding is therefore limited. Onthe other hand, an adhesive is not required in the hydrogen ion peelingmethod, therefore the method is immune to such problems.

The following describes an example of hydrogen ion peeling method forbonding a MOS monocrystal silicon thin film transistor to an insulatingsubstrate. The monocrystal silicon substrate has on its front surface anoxide film, a gate pattern, an impurity ion injection section, whichconstitute a part of the MOS monocrystal silicon thin film transistor,and also has a hydrogen ion injection section at a certain depth fromthe front surface. The MOS monocrystal silicon thin film transistor iscombined with an insulating substrate at the oxide film, and issubjected to heat treatment. Consequently, the MOS monocrystal siliconthin film transistor and the insulating substrate are firmly bonded byatomic bond, and the heat treatment causes a cleavage in the hydrogenion injection section. The unnecessary part is thus removed from themonocrystal silicon substrate. With this method, the MOS monocrystalsilicon thin film transistor can be easily bonded to an insulatingsubstrate without an adhesive.

Second Example

The following explains another embodiment of the present invention withreference to FIG. 7. For ease of explanation, materials having theequivalent functions as those shown in the drawings pertaining to theforegoing First Embodiment will be given the same reference symbols, andexplanation thereof will be omitted here.

The structure and the appearance of a display apparatus according to thepresent embodiment are shown in FIGS. 2 and 3, respectively. The displayapparatus according to the present embodiment also includes a liquidcrystal panel 1 as a display element and a voice device 2 as a soundsource element 2. The voice device 2 is located in the periphery section1 b. The display apparatus according to the present embodiment is thusalmost the same in structure as the display apparatus 30 according toFirst Embodiment. The present embodiment therefore describes only thefunctions not provided in the display apparatus 30 of First Embodiment.

FIG. 7 is a functional block diagram of the display apparatus 41. In thedisplay apparatus 30 shown in FIG. 1, the font data supplied from thefont conversion section 17 is transmitted to the video signal inputsection 14 in which the font data is synthesized with an image of thevideo signal to be transmitted to the display section drive section 13.On the other hand, as shown in FIG. 7, the display apparatus 41according to the present embodiment includes a superimpose drive section27 (second signal line drive circuit) which is provided oppositely tothe display section drive section 13 (second signal line drive circuit)via the display section 1 a. The font data is supplied to thesuperimpose drive section 27.

The superimpose drive section 27 serves to superimpose drawing datadirectly to the main image based on the video signal, which was suppliedto the video signal input section 14, and has been written to thedisplay section drive section 13 in the blanking period by the displaysection drive section 12. The superimpose drive section 27 ismonolithically formed with the display section drive section 13 on thethin film substrate 10.

The plurality of signal lines SL of the display section 1 a alsoconstitutes the superimpose drive section 27. After the display sectiondrive section 13 finishes driving the signal lines SL, the superimposedrive section 27 drives them again so as to superimpose the image offont data (font image) on the main image. Alternatively, a separatesignal line drive circuit dedicatedly used for superimposing may beprovided. The details of such a structure is described in Document 6(Japanese Unexamined Patent Publication Tokukai 2000-187470 (publishedon Jul. 4, 2000)), Document 7 (Japanese Unexamined Patent PublicationTokukai 2003-108079 (published on Apr. 11, 2003)), and Document 8(Japanese Unexamined Patent Publication Tokukai 2002-32048 (published onJan. 31, 2002)).

This structure does not require a specific conversion circuit or amemory, and therefore solves complexity of the periphery circuit capableof simultaneous display of plural images. Accordingly, the number ofadditional circuit decreases. The display apparatus according to thepresent invention is thus smaller in size and thickness than the displayapparatus of First Embodiment. The display apparatus of the presentinvention is therefore realized as a card device of a desired size.

Further, as with the modification example of First Embodiment, thedisplay apparatus of the present embodiment may include a touch panel 25attached to the thin film substrate 10 shown in the functional blockdiagram of FIG. 7. In this case, the thin film substrate 10 includes thesignal processing section 23 and the signal output section 24, and theoutput signal of the signal output section 24 is supplied to the textrecognizing section 22. With this structure, the hand-writing textinputted by the user through the touch panel 25 is displayed in thedisplay section, and the voice corresponding to the hand-writing text isoutputted from the voice device 2. The display apparatus is thus highlyconvenient. Note that, the display apparatus according to the presentembodiment may be arranged so that the output signal of the signaloutput section 24 is supplied to the text recognizing section 22 and thesuperimpose drive section 27 at the same time.

Note that, the display element or the thin film substrate applicable inthe present embodiment is the same as those of First Embodiment. Thedetailed explanation is therefore omitted here.

Third Embodiment

The following explains another embodiment of the present invention withreference to FIGS. 8 and 9. For ease of explanation, materials havingthe equivalent functions as those shown in the drawings pertaining tothe foregoing First Embodiment will be given the same reference symbols,and explanation thereof will be omitted here.

The structure and the appearance of a display apparatus 32 according tothe present embodiment are shown in FIGS. 2 and 3, respectively. Thedisplay apparatus according to the present embodiment also includes aliquid crystal panel 1 as a display element and a voice device 2 as asound source element 2. The voice device 2 is located in the peripherysection 1 b. The display apparatus according to the present embodimentis thus almost the same in structure as the display apparatus 30according to First Embodiment. The present embodiment thereforedescribes only the functions not provided in the display apparatus 30 ofFirst Embodiment.

FIG. 8 is a functional block diagram of the display apparatus 32. Thedisplay apparatus 32 includes, in terms of function, a display section 1a, display section drive sections (display section drive circuits) 12and 13, a video signal input section 14′, a text recognizing section 22,a voice synthesizer section 19, a voice data memory 20, a voice devicedrive section 21, a connection terminal section 15 and a voice device 2.In other words, the display apparatus 32 is provided with the textrecognizing section 22 instead of the text code input section 16, thefont conversion section 17, and the font memory 18 of the displayapparatus 30 of First Embodiment. Also, the signal input section 14 ofFirst Embodiment is replaced with a signal input section 14′.

In this embodiment, the display section drive sections 12 and 13 and thevideo signal input section 14′ constitute a display control section. Thevoice synthesizer section 19 and the voice data memory 20 constitute avoice output control section.

In the display apparatus 32, the signal input section 14′ transmits thevideo signals (incl. control signals) supplied from various externalapparatuses 33 (see FIG. 9) to the display section drive sections 12, 13and the text recognizing section 22 via the connection terminal section15. The display section drive sections 12 and 13 process the videosignals supplied from the signal input section 14′ and drives thedisplay section 1 a so that the display section 1 a displays imagesbased on the video signals.

Meanwhile, if the video signals supplied from the signal input section14′ include text information (any portion having a text shape), the textrecognizing section 22 extracts the text information. The textrecognizing section 22 then interprets the text information using amethod like pattern matching, and further converts the text informationinto a text code. The text recognizing section 22 transmits the textcode to the voice synthesizer section 19.

As described above, the voice synthesizer section 19 converts the textcode into corresponding voice data, and transmits the resulting voicedata to the voice device drive section 21 so that the voice device 2 isbrought into operation. Consequently, the voice device 2 outputs voiceof the text information as if the text displayed in the display sectionis read out loud.

More specifically, for example, if the video signals transmitted from anexternal apparatus include text information “Good morning”, the textinformation is supplied to the signal input section 14′. Consequently,the text “Good morning” is displayed in the display section 1 a togetherwith an image based on the video signal, and the voice device 2 outputsvoice saying “Good morning” as if the displayed text is read out loud.

FIG. 9 is a drawing showing the whole system including the displayapparatus 32 and the external apparatus 33. Typical examples of theexternal apparatus 33 includes electrophotographic device, electronicimage-capturing device, image storing media (tape, DVD etc.) reproducingdevice, broadcast receiver, communication device (incl. business purposeradio device, stationary telephone, mobile phone), information devicewith a video signal output section (eg. personal computer) e-bookinformation displaying device (incl. device dedicatedly used fordictionary search), and set-top box for internet broadcastcommunication. The external apparatus may be provided with an exclusivedisplay apparatus which at least includes a video signal output devicehaving a video signal output section.

The connection between the display apparatus 32 and the externalapparatus 33 is established by conducting their connection terminals. Ifboth of them are equipped with wireless communication functions whichallow them to constitute a wireless system, they are connected in awireless manner.

As described, the display apparatus 32 according to the presentembodiment causes the display section 1 a to display text correspondingto the text code supplied form the external apparatus 33, and alsoextracts text information from the video signal so that the text in thedisplayed image is also outputted as voice. This function is performedentirely in the display apparatus 32; that is, no modification isnecessary for the external apparatus 33.

With this function, the user sees the display of the image in thedisplay section and also hears speaking voice corresponding to the textmessage contained in the video signal even when the external apparatus33 supplies only the video signal. This allows the user to both visuallyand aurally confirmed the text. With this advantage, the displayapparatus 32 is highly convenient.

Conventionally, vision-impaired users have not been able to confirminformation transmitted from the external apparatus 33 unless theexternal apparatus 33 outputs voice corresponding to the textinformation contained in the image, together with the image of the videosignal. On the other hand, the foregoing function allows such users toaurally confirm the content of the text information contained in theimage, and therefore a wider range of information can be obtained fromvarious external apparatuses. This function ensures high convenience ofthe display apparatus 32.

Further, such a convenience as a display apparatus can be attained withno modification of the external apparatus 33. The foregoing function istherefore ensured for any conventional external apparatus having afunction of outputting video signals. The present invention is thushighly versatile.

In terms of this usage, the display apparatus 32 is preferably a mobiledisplay apparatus, which is thin, light-weighted, and small-sized. Onthis account, the users can carry the display apparatus 32 with them,and can obtain data from external apparatus 33 by connecting the displayapparatus 32 to the video signal output section of the externalapparatus 33.

Moreover, though this was not mentioned in the foregoing description,the all members of the display apparatus, which are shown in thefunctional block diagram of FIG. 8 except for the voice device 2;namely, the display section 1 a (to be more specific, a pixel driveelement, pixel electrode etc. of the display section 1 (circuit elementsof the display section)), display section drive sections (displaysection drive circuits) 12 and 13, the video signal input section 14,the text recognizing section 22, the voice synthesizer section 19, thevoice data memory 20, the voice device drive section 21, and theconnection terminal section 15 are all formed on the thin film substrate10 constituting the liquid crystal panel 1, together with the voicedevice drive section 21.

By thus forming the display section drive sections (display sectiondrive circuits) 12 and 13, the voice synthesizer section 19 and thevoice device drive section 21 each made of a thin film element, the textrecognizing section 22 on the thin film substrate 10 of the displaysection 1 a of the liquid crystal panel on which the pixel drive circuitelement is formed, the display apparatus 32 becomes capable ofsimultaneously displaying an image and outputting voice based on thetext information contained in the image without increasing the size.

Further, though it is not provided in the display apparatus 32, a voicesignal input section may be provided on the thin film substrate 10 toreceive a voice signal coming from external apparatuses connected to thedisplay apparatus 32 via the connection terminal section 15. In thiscase, the voice device 2 is vibrated by the voice device drive section21 based on the voice signal supplied from the voice signal inputsection. With this structure, the voice device 2 becomes capable ofoutputting voice based on a voice signal supplied from an externalapparatus, which allows the user to enjoy the sound accompanied by avideo signal.

Further, as with the modification example of First Embodiment, thedisplay apparatus 32 of the present embodiment may include a touch panel25 attached to the thin film substrate 10 shown in the functional blockdiagram of FIG. 8. In this case, the thin film substrate 10 includes thesignal processing section 23 and the signal output section 24, and theoutput signal of the signal output section 24 is supplied to the textrecognizing section 22. With this structure, the hand-writing textinputted by the user through the touch panel 25 is displayed in thedisplay section, and the voice corresponding to the hand-writing text isoutputted from the voice device 2. The display apparatus is thus highlyconvenient. Note that, the display apparatus according to the presentembodiment may be arranged so that the output signal of the signaloutput section 24 is supplied to the text recognizing section 22 and thesignal input section 14′ at the same time.

Note that, the display element or the thin film substrate applicable inthe present embodiment is the same as those of First Embodiment. Thedetailed explanation is therefore omitted here.

The present invention is not limited to the description of theembodiments above, but may be altered by a skilled person within thescope of the claims. An embodiment based on a proper combination oftechnical means disclosed in different embodiments is encompassed in thetechnical scope of the present invention.

As described, a first display apparatus according to the presentinvention comprises: a display section; a voice output section; a textcode input section for receiving an input text code externally supplied;a display control section for displaying text corresponding to the textcode in the display section; and a voice output control section foroutputting voice corresponding to the text code through the voice outputsection, the voice input section outputs the text code to the displaycontrol section and the voice output control section so as to displaythe text corresponding to the text code in the display section, andoutput the voice corresponding to the text code through the voice outputsection.

With this invention, the text code input section outputs the input textcode to the display control section and the voice output control sectionso that the display control section causes the display section todisplay text corresponding to the input text code and the voice outputcontrol section causes the voice output section to output voicecorresponding to the input text code, that is, voice reading thedisplayed text.

With this function, the user sees the display of the text message andalso hears speaking voice corresponding to the text message even whenonly the text code is transmitted from an external apparatus.Consequently, the text information is displayed in the display section,and also is outputted as voice from the voice output section. Thisallows the user to both visually and aurally confirmed the text.Conventionally, vision-impaired users have not been able to confirminformation transmitted from external apparatuses unless the externalapparatus outputs a voice signal together with the text codeinformation. On the other hand, the foregoing function allows such usersto aurally confirm the content of text code information supplied from anexternal device even when the external device supplies only text codeinformation. On this account, a wider range of information can beobtained from various external apparatuses.

Such a highly-convenient display apparatus is realized entirely in thedisplay apparatus; that is, no modification is necessary for theexternal apparatus which outputs the text code information. Therefore,the foregoing effect is ensured for any conventional external apparatushaving a function of outputting text codes. The present invention isthus highly versatile.

The first display apparatus according to the present invention mayfurther comprises a video signal input section for receiving an inputvideo signal externally supplied. In this case, the first displayapparatus is arranged such that the display control section displays inthe display section an image based on the input video signal supplied tothe video signal input section, and displays the text corresponding tothe text code so that the text is superimposed on the image.

With this invention, an image based on the video signal supplied throughthe video signal input section is displayed in the display section, anda text image corresponding to the text code is superimposed on thedisplayed image. Therefore, the user can enjoy the picture with thetext, and the convenience of the display apparatus increases.

Further, when the text is superimposed on the image, the display sectionpreferably has (i) a plurality of scanning lines arranged in line, and(ii) a plurality of signal lines arranged in line and respectivelyintersect with the scanning lines. In this case, the first displayapparatus is arranged such that the display control section includes a(a) scanning line drive circuit which serves as a display section drivecircuit for driving the display section by sequentially supplyingscanning signals to the scanning lines, and a (b) signal line drivecircuit for supplying video signals to the signal lines, the scanningline drive circuit being constituted of a first signal line drivecircuit for receiving the video signal from the video signal inputsection and a second signal line drive circuit for receiving a videosignal for displaying the text corresponding to the text code, the firstsignal line drive circuit and the second signal line drive circuitsharing the signal lines.

In the case of creating a single piece of image information by combininga picture of a video signal with a text image which corresponds to atext code generated inside the display apparatus so as to generate avideo signal of a synthetic picture, which is outputted by the scanningline drive circuit to the signal line drive circuit to be displayed as asuperimposed image, the display apparatus requires a memory with a largecapacity, and an A/D conversion circuit or a D/A conversion circuit.This decreases the superior mobility of the display apparatus relying onthe fact that the apparatus serves as a client apparatus using only adisplay function.

On the other hand, in the foregoing structure in which the scanning linedrive circuit is constituted of a first signal line drive circuit forreceiving the video signal from the video signal input section and asecond signal line drive circuit for receiving a video signal fordisplaying the text corresponding to the text code, and the first signalline drive circuit and the second signal line drive circuit share thesignal lines, it is not necessary to combine a picture of theexternally-supplied video signal with a text image which corresponds toa text code generated inside the display apparatus so as to create asingle piece of image information. Therefore, the display apparatus doesnot require the memory with a large capacity etc., and the number ofadditional circuits for superimposing display is reduced. On thisaccount, the present invention does not decrease the superior mobilityof the display apparatus relying on the fact that the apparatus servesas a client apparatus using only a display function.

A second display apparatus according to the present invention comprises:a display section; a voice output section; a video signal input sectionfor receiving an input video signal externally supplied; a displaycontrol section for displaying an image based on the input video signalin the display section; a text recognizing section for extracting a textportion from the input video signal and converting the text portion intoa text code; and a voice output control section for outputting voicecorresponding to the text code through the voice output section, thevideo signal input section outputs the input video signal to the displaycontrol section and the text recognizing section, and the textrecognizing section outputs the text code to the voice output controlsection, so that an image corresponding to the input video signal isdisplayed in the display section, and voice corresponding to the textcode, which is included in the input video signal and is recognized bythe text recognizing section, is outputted from the voice outputsection.

With this invention, the video signal input section outputs theexternally supplied video signal to the display control section and thetext recognizing section. The text recognizing section extracts the textportion contained in the video signal and converts the text portion intoa text code. Consequently, the display control section causes thedisplay section to display an image corresponding to the video signaland the voice output control section causes the voice output section tooutput voice corresponding to the text code, that is, voice reading thetext contained in the displayed image.

With this function, the user sees the display of the image of the videosignal and also hears speaking voice corresponding to the text portioncontained in the video signal even when only the video signal istransmitted from an external apparatus. This allows the user to bothvisually and aurally confirmed the externally supplied data.Conventionally, vision-impaired users have not been able to confirm textinformation contained in a video signal transmitted from externalapparatuses unless the external apparatus outputs a voice signaltogether with the text code information. On the other hand, theforegoing function allows, even when the external device supplies only avideo signal, such users to aurally confirm the content of textinformation contained in the video signal. On this account, a widerrange of information can be obtained from various external apparatuses.

Such a highly-convenient display apparatus is realized entirely in thedisplay apparatus; that is, no modification is necessary for theexternal apparatus which outputs the video signals. Therefore, theforegoing effect is ensured for any conventional external apparatushaving a function of outputting video signals. The present invention isthus highly versatile.

In addition to the foregoing arrangement, the first display apparatus ofthe present invention may be further arranged such that the displaysection is constituted of a display element drivable by a thin filmelement, and the text code input section, the display control section,and the voice output control section are either directly formed on athin film substrate on which a pixel driving circuit element of thedisplay element is formed, or are constituted of active elements formedon another substrate which is to be bonded to the thin film substrate.Further, in the case of providing a video signal input section, thevideo signal input section is also either directly formed on a thin filmsubstrate on which a pixel driving circuit element of the displayelement is formed, or is constituted of active elements formed onanother substrate which is to be bonded to the thin film substrate.

With this arrangement in which the text code input section, the displaycontrol section, and the voice output control section are eitherdirectly formed on a thin film substrate on which a pixel drivingcircuit element of the display element is formed, or are constituted ofactive elements formed on another substrate which is to be bonded to thethin film substrate, the display apparatus may be equipped with a voiceoutput section without increasing in size, unlike the structure in whichthe respective sections, such as the display control section, the voiceoutput control section etc., are formed on separate print substrates orthe like. On this account, the display apparatus can be equipped with atext display function and a voice output function without increasing insize.

In addition to the foregoing arrangement, the second display apparatusof the present invention may be further arranged such that the displaysection is constituted of a display element drivable by a thin filmelement, and the video signal input section, the display controlsection, the text recognizing section, and the voice output controlsection are either directly formed on a thin film substrate on which apixel driving circuit element of the display element is formed, or areconstituted of active elements formed on another substrate which is tobe bonded to the thin film substrate.

This arrangement also allows the display apparatus to be equipped with avoice output section without increasing in size, unlike the structure inwhich the respective sections, such as the display control section, thevoice output control section etc., are formed on separate printsubstrates or the like. On this account, the display apparatus can beequipped with an image display function and a function of outputtingvoice of text information contained in the video signal, withoutincreasing in size.

The another substrate having active elements preferably has a hydrogenion injection section so that said another substrate is combined withthe thin film substrate by adhering the hydrogen ion injection sectionto the thin film substrate and curing the hydrogen ion injection sectionby heating.

The thin film substrate 10 and the active element formed on the separatesubstrate may be bonded with an adhesive, but the bonding process isquite troublesome. Further, the adhesive is not always highly-heatresistant, and the process after the bonding is therefore limited. Onthe other hand, an adhesive is not required in the hydrogen ion peelingmethod, therefore the method is immune to such problems.

In addition to the foregoing arrangement, the first and second displayapparatuses of the present invention may be further arranged such thatthe voice output section is constituted of a sound source element whichis layered on the display element constituting the display sectionwithin a flat region of the display element, sound source elementgenerating voice by vibrating the display element.

With this arrangement, the sound source element constituting the soundoutput section generates sound by vibrating the display element.Further, the sound source element drive section, which wasconventionally formed on a separate substrate, is formed on the thinfilm substrate included in the display element. On this account, thesound source element can be reduced in size, and is layered on thedisplay element constituting the display section within a flat region ofthe display element. In this way, The sound source element is mounted tothe display element without significantly deteriorating the outer shapeof the display apparatus having only a display function.

Also in this case, the another substrate having active elementspreferably has a hydrogen ion injection section so that said anothersubstrate is combined with the thin film substrate by adhering thehydrogen ion injection section to the thin film substrate and curing thehydrogen ion injection section by heating.

Further, in the first and second display apparatuses of the presentinvention, the thin film substrate includes a thin film layer includinga polycrystal silicon thin film or a continuous grain boundary crystalsilicon thin film. Further, in the first and second display apparatusesof the present invention, the display section performs display by liquidcrystal or by an EL layer.

The embodiments and concrete examples of implementation discussed in theforegoing detailed explanation serve solely to illustrate the technicaldetails of the present invention, which should not be narrowlyinterpreted within the limits of such embodiments and concrete examples,but rather may be applied in many variations within the spirit of thepresent invention, provided such variations do not exceed the scope ofthe patent claims set forth below.

The present invention is applicable to a display apparatus serving onlyas an individual displaying apparatus by relying on an external device(server) for the major functions of the system. Typical examples of theexternal apparatus for outputting text code information to the displayapparatus includes perforated media (tape, card) reading device,magnetic media reading device, optical media reading device (incl. diskmedia, multi-purpose scanner), Optical Character Reader (OCR), broadcastreceiver, communication device (incl. business purpose radio device,stationary telephone, mobile phone), document editor, e-book informationdisplaying device (incl. device dedicatedly used for dictionary search),and set-top box for internet broadcast communication. The externalapparatus may be provided with an exclusive display apparatus which atleast includes a text code output device having a text code outputsection. Typical examples of the external apparatus for outputting videosignals to the display apparatus includes electrophotographic device,electronic image-capturing device, image storing media (tape, DVD etc.)reproducing device, broadcast receiver, communication device (incl.business purpose radio device, stationary telephone, mobile phone),information device with a video signal output section (eg. personalcomputer) e-book information displaying device (incl. device dedicatedlyused for dictionary search), and set-top box for internet broadcastcommunication.

While preferred embodiments of the present invention have been describedabove, it is to be understood that variations and modifications will beapparent to those skilled in the art without departing the scope andspirit of the present invention. The scope of the present invention,therefore, is to be determined solely by the following claims.

1. A mobile display apparatus serving as a client device of an externalhost apparatus, the mobile display apparatus comprising: a displaysection including a plurality of scanning lines arranged in a row and aplurality of signal lines arranged in a column and respectivelyintersecting with the scanning lines; a voice output section; a textcode input section arranged to receive an input text code from theexternal host apparatus; a video signal input section arranged toreceive an input video signal from the external host apparatus; adisplay control section arranged to display in the display section textcorresponding to the input text code and including: a scanning linedrive circuit defining a display section drive circuit that is arrangedto drive the display section by sequentially supplying scanning signalsto the scanning lines; and a signal line drive circuit arranged tosupply video signals to the signal lines, the signal line drive circuitincluding a first signal line drive circuit that is arranged to receivethe video signal from the video signal input section and a second signalline drive circuit that is arranged to receive a video signalcorresponding to the text corresponding to the input text code; and avoice output control section arranged to output voice soundscorresponding to the input text code through the voice output section;wherein the text code input section outputs the input text code to thedisplay control section and the voice output control section to displayin the display section the text corresponding to the input text code,and to output the voice sounds corresponding to the input text codethrough the voice output section; the display control section displaysin the display section both an image based on the input video signalsupplied to the video signal input section and the text corresponding tothe input text code so that the text is superimposed on the image; andthe first signal line drive circuit and the second signal line drivecircuit share the signal lines.
 2. The mobile display apparatus as setforth in claim 1, wherein: the display section includes a displayelement driven by a thin film element; and the text code input section,the display control section, and the voice output control section areeither directly provided on a thin film substrate on which a pixeldriving circuit element of the display element is provided, or includeactive elements provided on another substrate which is bonded to thethin film substrate.
 3. The mobile display apparatus as set forth inclaim 2, wherein: the voice output section includes a sound sourceelement which is layered on the display element of the display sectionwithin a flat region of the display element; and a sound source elementgenerates voice sounds by vibrating the display element.
 4. The mobiledisplay apparatus as set forth in claim 3, wherein: the sound sourceelement is driven by a sound source element drive section which iseither directly provided on the thin film substrate, or includes activeelements provided on another substrate which is bonded to the thin filmsubstrate.
 5. The mobile display apparatus as set forth in claim 2,wherein: the thin film substrate includes a thin film layer including apolycrystal silicon thin film.
 6. The mobile display apparatus as setforth in claim 2, wherein: the thin film substrate includes a thin filmlayer including a continuous grain boundary crystal silicon thin film.7. The mobile display apparatus as set forth in claim 2, wherein: theanother substrate including the active elements has a hydrogen ioninjection section; and the hydrogen ion injection section is adhered tothe thin film substrate to combine said another substrate with the thinfilm substrate.
 8. The mobile display apparatus as set forth in claim 1,wherein: the display section includes a display element driven by a thinfilm element; and the text code input section, the video signal inputsection, the display control section, and the voice output controlsection are either directly provided on a thin film substrate on which apixel driving circuit element of the display element is provided, orinclude active elements provided on another substrate which is bonded tothe thin film substrate.
 9. The mobile display apparatus as set forth inclaim 1, wherein: the display section is a liquid crystal display. 10.The mobile display apparatus as set forth in claim 1, wherein: thedisplay section includes an EL layer.